Failure analysis of an infinite unsaturated soil slope

Zhou, Annan; Huang, Jinsong; Li, Chun-Qing

Title: Failure analysis of an infinite unsaturated soil slope
Creator: Zhou, Annan; Huang, Jinsong; Li, Chun-Qing
Relation: ARC|DP140101547|ARC|DE130101342|ARC|LP150100413 http://purl.org/au-research/grants/arc/LP150100413
Relation: Proceedings of the Institution of Civil Engineers: Geotechnical Engineering Vol. 169, Issue GE5, p. 410-420
Publisher Link: http://dx.doi.org/10.1680/jgeen.15.00172
Publisher: ICE Publishing
Resource Type: journal article
Date: 2016
Description: Increases in rainfall and groundwater level rising can cause more frequent failures of unsaturated soil slopes, resulting in large-scale landslides. The aim of this paper is to propose a methodology for prediction of the failure of an infinite soil slope subject to steady unsaturated flow conditions. Probabilistic models for soil porosity, friction angle, matric suction and saturation are developed. The probability of slope failure for different groundwater levels and infiltration (or evaporation) intensities is investigated. Numerical results show that, for a slope with deep groundwater, the slope failure is mainly controlled by the rainfall infiltration, whereas for shallow groundwater, the slope failure is governed by the location of the groundwater level. A merit of the proposed methodology is that the fluctuation of the soil porosity along the depth of a slope is modelled as a Gaussian random field. The paper concludes that the proposed methodology can be used for prediction of slope failures under steady unsaturated flow conditions. Accurate prediction of slope failures can prevent catastrophic consequences of landslides.
Subject: groundwater/risk & probability analysis; slopes – stabilisation
Identifier: http://hdl.handle.net/1959.13/1331246
Identifier: uon:26574
Identifier: ISSN:1353-2618
Rights: Permission is granted by ICE Publishing to print one copy for personal use. Any other use of these PDF files is subject to reprint fees.
Language: eng
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